KR101257058B1 - Apparatus and method for sorting and supplying a gas - Google Patents

Abstract

An apparatus and a method for converter gas sorting and supplying are disclosed. According to an aspect of the present invention, the inlet tube (LDG, linz donawitz gas) is introduced, the composition measuring instrument for measuring the content of one component of the converter gas flowing into the inlet pipe, connected to the inlet pipe, When the content of one component measured by the first reference value or more is connected to the first supply pipe, the inlet pipe for supplying the converter gas to the blast furnace (blast furnace), the content of the one component measured by the composition measuring instrument is less than the first reference value In this case, it is interposed between the second supply pipe for supplying the converter gas to the gas holder, and the inlet pipe, the first supply pipe and the second supply pipe, and according to the content of one component measured by the composition measuring instrument to the first supply pipe or the second supply pipe. A converter gas sorting and supplying device including a switching valve for controlling whether or not the converter gas is provided is provided.

Description

Converter gas sorting supply and method {APPARATUS AND METHOD FOR SORTING AND SUPPLYING A GAS}

The present invention relates to a converter gas sorting supply apparatus and method.

In the steelmaking process, by-product gases such as blast furnace gas (BFG), coke oven gas (COG) and linz donawitz gas (LDG) are generated.

The blast furnace gas, coke furnace gas and converter gas, respectively, has a calorific value of about 750kcal / Nm ³ , 4200kcal / Nm ³ , 2000kcal / Nm ³ , and these by-product gases can be reused in various ways as an energy source for steelmaking processes. have.

In the by-product gas, the converter gas generated through the blowing process appears to have a high carbon monoxide (CO) content of about 80 to 90% by volume (vol%). However, as the converter gas pattern is irregular, the supply stability is lower than that of other by-products, so its utilization is not high.

On the other hand, in blast furnace operation, coke is used as a major source of carbon. In this case, the reduction of the coke is directly connected to the improvement of the productivity and the cost reduction, and thus the productivity of the blast furnace may be increased by reducing the use of the coke as an indirect reducing agent and increasing the use of the direct reducing agent such as hydrocarbon-based fuel.

Embodiments of the present invention are to provide a converter gas sorting and supplying apparatus and method which can improve the productivity of the blast furnace by increasing the fluidity of the converter gas utilization, reduce the amount of coke input to the blast furnace.

According to an aspect of the present invention, the inlet tube (LDG, linz donawitz gas) is introduced, the composition measuring instrument for measuring the content of one component of the converter gas flowing into the inlet pipe, connected to the inlet pipe, When the content of one component measured by the first reference value or more is connected to the first supply pipe, the inlet pipe for supplying the converter gas to the blast furnace (blast furnace), the content of the one component measured by the composition measuring instrument is less than the first reference value In this case, it is interposed between the second supply pipe for supplying the converter gas to the gas holder, and the inlet pipe, the first supply pipe and the second supply pipe, and according to the content of one component measured by the composition measuring instrument to the first supply pipe or the second supply pipe. A converter gas sorting and supplying device including a switching valve for controlling whether or not the converter gas is provided is provided.

The converter gas sorting and supplying device is further connected to the inlet pipe, and further comprises a discharge pipe for discharging the converter gas to the outside when the content of one component measured by the composition measuring instrument is less than the second reference value, the second reference value is greater than the first reference value Can be small.

One component is carbon monoxide (CO), and the second reference value may be 30 volume percent.

One component is carbon monoxide (CO) and the first reference value may be 80 volume percent.

The apparatus further includes a calorimeter for measuring the calorific value of the converter gas flowing into the inlet pipe, and the first supply pipe may supply the converter gas to the blast furnace when the content of one component is greater than or equal to the first reference value and the calorific value of the converter gas is greater than or equal to the reference calorific value. .

The converter gas separation supply device may further include a controller for controlling the operation of the switching valve.

The switching valve may be a 3-way valve.

According to another aspect of the invention, the step of measuring the content of one component in the converter gas, the step of supplying the converter gas to the blast furnace when the content of the measured one component is greater than the first reference value, and the content of the measured one component is zero Provided is a converter gas sorting supply method comprising supplying converter gas to a gas holder if less than one reference value.

After the step of measuring the content of one component, if the content of the measured one component is less than the second reference value may further comprise the step of discharging the converter gas to the outside.

The second reference value may be smaller than the first reference value.

One component is carbon monoxide (CO), and the second reference value may be 30 volume percent.

One component is carbon monoxide and the first reference value may be 80 volume percent.

After measuring the content of one component, the method further comprises the step of measuring the calorific value of the converter gas, the step of supplying the converter gas to the blast furnace, the measured content of one component is equal to or greater than the first reference value If the reference calorie value may be more than the step of supplying the converter gas to the blast furnace.

According to embodiments of the present invention, it is possible to increase the fluidity of the converter gas utilization, and to reduce the amount of coke introduced into the blast furnace to improve the productivity of the blast furnace.

1 is a view showing a converter gas screening supply device according to an embodiment of the present invention.
Figure 2 is a graph showing the change in the content of one component (CO) of the converter gas flowing into the converter gas sorting supply according to an embodiment of the present invention.
Figure 3 is a flow chart showing a converter gas screening supply method according to another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Hereinafter, with reference to the accompanying drawings, an embodiment of the converter gas screening supply device and method according to the present invention will be described in detail, in the description with reference to the accompanying drawings, the same or corresponding components are given the same reference numerals and Duplicate description thereof will be omitted.

1 is a view showing the converter gas screening supply device 100 according to an embodiment of the present invention.

According to this embodiment, as shown in FIG. 1, the converter gas 20 generated in the converter 10 is selected according to the content of one component, for example, carbon monoxide, and a part thereof is supplied to the blast furnace 30. As an apparatus, the inlet pipe 110, the composition measuring instrument 120, the first supply pipe 130, the second supply pipe 140, the switching valve 150, the calorimeter 160, the controller 170, and the discharge pipe 180 Converter gas screening supply device 100 having a is provided.

According to this embodiment, the converter gas 20 is selected according to one component, for example, carbon monoxide content, the content of the converter gas 20 having a first reference value, for example, 80% by volume (vol%) or more. It can be supplied to the blast furnace (30) to utilize it as a reducing agent required during steelmaking.

Accordingly, it is possible to increase the fluidity of the converter gas 20, as well as to replace the carbon monoxide generated through the combustion of the coke to function as a reducing agent with carbon monoxide in the converter gas 20, the blast furnace 30 Since the amount of coke introduced can be reduced, the productivity of the blast furnace 30 can be improved.

Hereinafter, referring to FIGS. 1 and 2, each configuration of the converter gas sorting and supplying apparatus 100 according to the present embodiment will be described in more detail.

As shown in FIG. 1, the inflow pipe 110 may introduce a converter gas 20 in which the content of one component is changed. In the converter 10, the content of one component, for example, carbon monoxide, increases with the progress from the beginning of the blow to the middle, and then decreases toward the end of the blow.

2 is a graph showing a change in the content of one component (CO) of the converter gas 20 flowing into the converter gas screening supply device 100 according to an embodiment of the present invention.

As can be seen through Figure 2, the content of carbon monoxide in the converter gas 20 is changed according to the blowing time, starts to increase from the beginning of the blow to reach the maximum value in the middle of the blow, and decreases again toward the end of the blow .

As described above, since the content of carbon monoxide in the converter gas 20 varies according to the flow thereof, in the present embodiment, the converter gas 20 is changed according to the content of one component such as carbon monoxide using the first and second reference values preset. By sorting, the converter gas 20 can be widely utilized for various uses.

As shown in FIG. 1, the composition measuring unit 120 may measure the content of one component, for example, carbon monoxide, in the converter gas 20 introduced into the inlet pipe 110 and installed in the inlet pipe 110. .

As the composition measuring device 120, a device for selectively measuring the concentration of only one component of the converter gas 20 may be used. In addition, a device for measuring the content of all the components may be used as the composition measuring device 120. May be

Information about the content of one component of the converter gas 20, for example, carbon monoxide, measured by the composition measuring unit 120 may be transmitted to the controller 170, and the controller 170 may convert the valve according to the content information. 150 to selectively open the first supply pipe 130 or the second supply pipe 140 to control the operation of the converter gas 20.

As shown in FIG. 1, the first supply pipe 130 and the second supply pipe 140 may be connected to the end of the inflow pipe 110. When the content of the carbon monoxide in the converter gas 20 measured by the composition measuring unit 120 is a first reference value, for example, 80% by volume or more, the first supply pipe 130 may thus convert the converter gas 26 having a high concentration of carbon monoxide. Received and can be transferred to the blast furnace 30, when the content of the carbon monoxide measured by the composition measuring unit 120 is less than the first reference value, the second supply pipe 140 is a converter gas having a relatively low concentration of carbon monoxide in this way The 24 may be supplied to the gas holder 40.

In this case, a calorimeter 160 for measuring the calorific value of the converter gas 20 may be installed in a downstream portion of the inflow pipe 110. Accordingly, the first supply pipe 130 has a content of carbon monoxide in the converter gas 20 having a first reference value, that is, 80 volume percent or more, and at the same time, the amount of heat of the converter gas 20 is increased by a reference heat quantity, for example, 80 volume percent. In the case of more than 2,500 kcal / Nm ³ corresponding to the heat amount of the converter gas 20 having carbon monoxide, the converter gas 26 is supplied to the blast furnace 30.

As described above, the calorimeter 160 may be used to measure the calorific value of the converter gas 20, and by indirectly inferring the content of carbon monoxide in the converter gas 20 using the calorific value measured by the composition measuring unit 120. Since the verification of the carbon monoxide content is possible, as a result, it is possible to implement a more precise converter gas screening supply device (100).

On the other hand, as shown in Figure 1, the discharge pipe 180 may be connected to the portion between the composition measuring unit 120 and the switching valve 150 of the inlet pipe (110). The discharge pipe 180 is the first supply pipe 130 and the second supply gas to the converter gas 22 when the content of the carbon monoxide measured by the composition measuring unit 120 is less than the second reference value has a low heat amount Before reaching the supply pipe 140 can be discharged to the outside in advance. In this case, the second reference value may be set to a value smaller than the first reference value, for example, 30 volume percent.

That is, the converter gas 20, 22, 24, 26 is discharged to the outside through the discharge pipe 180 when the carbon monoxide content is less than the second reference value, 30% by volume, the first component content is more than the second reference value If less than 1 reference value, 80% by volume is transferred to the gas holder 40 through the second supply pipe 140, if the content of the one component is greater than the first reference value is transferred to the blast furnace 30 through the first supply pipe 130. Can be used as a reducing agent.

Therefore, the flow rate portion of the converter gas 24 corresponding to sections a and c of FIG. 2 is stored in the gas holder 40 through the second supply pipe 140 as shown in FIG. 1, and then the fuel in the power plant 50 or the like. It can be used as.

In addition, the flow rate portion of the converter gas 26 corresponding to section b of FIG. 2 corresponds to the converter gas 26 having a high concentration of carbon monoxide, and the converter gas 20 is the first supply pipe (as shown in FIG. 1). 130 may be transferred to the blast furnace 30 and used as a reducing agent to partially replace the coke in the blast furnace 30.

In this case, the flow rate portion of the converter gas 22 corresponding to the outer sections of the section a and c of FIG. 2 may be dissipated to the outside through the discharge pipe 180, and more specifically, the converter gas 22 may be discharge pipe. It may be transferred to a flare stack or the like through 180 to be burned and then discharged to the outside.

As described above, the supply of the converter gas 20 to the first supply pipe 130 or the second supply pipe 140 may be controlled by a switching valve 150 such as a three-way valve, and the switching valve 150 may be As shown in Figure 1 may be installed between the inlet pipe 110, the first supply pipe 130 and the second supply pipe 140.

Hereinafter, the converter gas sorting supply method using the converter gas sorting supply apparatus 100 mentioned above is demonstrated.

3 is a flow chart showing a converter gas screening supply method according to another embodiment of the present invention.

According to this embodiment, the step of measuring the content of one component, for example, carbon monoxide in the converter gas 20 (S110), determining whether the carbon monoxide content is more than 30% by volume (S120), the carbon monoxide content is 30 volumes When less than the percent of the step of discharging the converter gas 22 to the outside (S130), if the carbon monoxide content is more than 30% by volume, determining whether the carbon monoxide content is more than 80% by volume (S140), the carbon monoxide content is 80% by volume If smaller than the step of supplying the converter gas 24 to the gas holder 40 (S150), if the carbon monoxide content is more than 80% by volume step of measuring the heat of the converter gas 20 (S160), if the reference calorie or more A converter gas sorting and supplying method including supplying the gas 26 to the blast furnace 30 (S170) is provided.

Hereinafter, referring to FIGS. 1 to 3, each step of the converter gas sorting and supplying method according to the present embodiment will be described in more detail.

First, the content of one component, for example, carbon monoxide in the converter gas 20 is measured (S110). Information on the content of carbon monoxide in the converter gas 20 measured by the composition measuring unit 120 installed in the inlet pipe 110 may be transmitted to the controller 170.

The controller 170 determines whether the carbon monoxide content in the converter gas 20 is 30% by volume or more based on the information on the content of the carbon monoxide in the converter gas 20 transferred to the controller 170 as described above (S120). .

And when the carbon monoxide content is less than the second reference value, that is, 30% by volume based on the determination result, the converter gas 22 is discharged to the outside (S130). That is, the controller 170 may open the discharge pipe 180 by applying an operation signal to the valve installed in the discharge pipe 180, so that the content of the carbon monoxide is less than the first reference value, for example, 30 vol% converter gas The 22 may be discharged through the discharge pipe 180.

As shown in Figure 2, in the initial and end of the blown carbon monoxide content of the converter gas 22 is less than 30% by volume, the converter gas 22 is discharged to the outside through the discharge pipe 180 as described above. Can be.

On the contrary, when the carbon monoxide content in the converter gas 20 is 30 vol% or more, the controller 170 determines again whether the carbon monoxide content in the converter gas 20 is the first reference value, that is, 80 vol% or more (S140). As shown in FIG. 2, the content of carbon monoxide may be 30% by volume or more, and the controller 170 may determine whether the carbon monoxide content is 80% by volume or more in order to reselect the converter gas 20. Will be judged.

As a result of the determination, when the carbon monoxide content is less than 80% by volume, the controller 170 may apply an operation signal to the switching valve 150 to close the first supply pipe 130 and open the second supply pipe 140. Thus, the converter gas 24 may be supplied to the gas holder 40 (S150).

In contrast, when the carbon monoxide content is 80% by volume or more, the calorific value of the converter gas 20 is measured (S160). Information about the calorific value of the converter gas 20 measured by the calorimeter 160 installed downstream of the inflow pipe 110 may be transferred to the controller 170, and the controller 170 may measure the calorie information and thus measured in advance. The stored calorie information is compared to verify that the carbon monoxide content is greater than 80% by volume.

As a result of the verification, when the carbon monoxide content is 80% by volume or more and the calorific value of the converter gas 20 is more than the reference calorie value, the converter gas 26 is supplied to the blast furnace 30 (S170). The controller 170 may apply an operation signal to the switching valve 150 to close the second supply pipe 140 and open the first supply pipe 130, thereby converting the converter gas 26 into the blast furnace 30. Can be supplied.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention as set forth in the appended claims. The present invention can be variously modified and changed by those skilled in the art, and it is also within the scope of the present invention.

10: Converter
20, 22, 24, 26: converter gas
30: blast furnace
40: gas holder
50: power plant
100: converter gas sorting supply device
110: inlet pipe
120: composition measuring instrument
130: first supply pipe
140: second supply pipe
150: switching valve
160: calorimeter
170: controller
180: discharge pipe

Claims (13)

Inlet pipe into which converter gas (LDG, linz donawitz gas) flows;
A composition measuring device for measuring the content of one component of the converter gas flowing into the inlet pipe;
A first supply pipe connected to the inlet pipe and configured to supply the converter gas to a blast furnace when the content of one component measured by the composition measuring instrument is equal to or greater than a first reference value;
A second supply pipe connected to the inlet pipe and supplying the converter gas to a gas holder when the content of one component measured by the composition measuring instrument is smaller than the first reference value;
Interposed between the inlet pipe, the first supply pipe and the second supply pipe, to control whether the converter gas supplied to the first supply pipe or the second supply pipe according to the content of the one component measured by the composition measuring instrument Toggle valve; And
It includes a calorimeter for measuring the calorie of the converter gas flowing into the inlet pipe,
The first supply pipe is characterized in that for supplying the converter gas to the blast furnace when the content of the one component is greater than the first reference value and the amount of heat of the converter gas is more than the reference calorie.
The method of claim 1,
A discharge pipe connected to the inlet pipe and configured to discharge the converter gas to the outside when the content of the one component measured by the composition measuring instrument is smaller than a second reference value;
And the second reference value is smaller than the first reference value.
The method of claim 2,
The one component is carbon monoxide (CO),
The second reference value is a converter gas screening supply device, characterized in that 30% by volume (volume percent).
The method of claim 1,
The one component is carbon monoxide (CO),
The first reference value is the converter gas screening supply device, characterized in that 80% by volume.
delete The method of claim 1,
And a controller for controlling the operation of the switching valve.
The method of claim 1,
The switching valve is a three-way valve (3-way valve) characterized in that the converter gas screening supply device.
Measuring the content of one component in the converter gas;
Supplying the converter gas to the blast furnace if the measured content of one component is equal to or greater than a first reference value; And
Supplying the converter gas to a gas holder when the content of the measured one component is smaller than the first reference value,
After measuring the content of the one component,
Further comprising the step of measuring the heat of the converter gas,
The step of supplying the converter gas to the blast furnace,
And supplying the converter gas to the blast furnace when the measured content of the one component is equal to or greater than the first reference value and the measured calorie value is greater than or equal to the reference calorific value.
9. The method of claim 8,
After measuring the content of the one component,
When the measured content of the one component is less than the second reference value, the converter gas screening supply method further comprising the step of discharging the converter gas to the outside.
10. The method of claim 9,
And the second reference value is smaller than the first reference value.
The method of claim 10,
The one component is carbon monoxide (CO),
And the second reference value is 30 volume percent.
9. The method of claim 8,
The one component is carbon monoxide,
The first reference value is the converter gas screening supply method, characterized in that 80% by volume.
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